better crops lcc paper dec 2010

4
26    B   e    t    t   e   r    C   r   o   p   s    /    V   o    l  .    9    4    (    2    0    1    0  ,    N   o  .    4    ) Abbreviation s: N = nitrogen. PUNJAB, INDIA C urrent fertilizer N recommendations in India typically consist of xed rate and timings for large rice growing tracts. These “blanket” recommendations have served their purpose in producing good yields, but they are limited in their capacity to increase nutrient use efciency. And many times, to ensure high yields, farmers apply fertilizer N rates even higher than the blanket recommendation. Over- application of N in cereal crops leads to further lowering of N fertilizer recovery efciency. The blanket recommendations are also not responsive to temporal variations in crop N demand. Use of N in excess of crop requirement and inefcient splitting of N applications are the main reasons for low N use efciency in rice. Since improving the synchrony between cro p N demand and the N supply from soil and/or the applied N fertilizer is likely to be the most promising strategy to increase N use efciency, the split application of fertilizer N is going to remain an essential component of fertilizer N management strategies in rice. Real-time correc tive N management is based on periodic assessment of plant N status, and the application of fertilizer N is delayed until N deciency symptoms start to appear. Thus, a key ingredient for real-time N management is a method of rapid assessment of leaf N content that is closely related to photosynthetic rate and biomass production and is a sensitive indicator of changes in crop N demand within the growing season. As rice leaf color is a good indicator of leaf N content, the LCC, developed through collaboration of the International Rice Research Institute (IRRI) with agricultural research systems of several countries in Asia, serves as a visual and subjective indicator of plant N deciency . With its 4- or 6-color panels of different shades of green, the LCC is used as a reference tool and is becoming popular as an inexpensive and easy-to-use tool for estimating leaf N content and managing fertilizer N in rice. LCC-based, real-time N management can be practiced in rice by monitoring leaf color at 7- to 10-day intervals dur- ing the growing season. Fertilizer N is applied whenever the leaves are less greenish than a threshold LCC value, which corresponds to a critical leaf N content (Bijay-Singh et al., 2002, Varinderpal-Singh et al., 2007, Yadvinder-Singh et al., 2007). Many times, farmers prefer less frequent monitoring of leaf color as they are strongly accustome d to applying fertilizer N at growth stages as per the blanket recommendation. An alternative xed-time option involves application of moderate rates of N at transplanting, and at 21 days after transplanting (DAT), coupled with monitoring of leaf color only at panicle initiation around 42 DAT and applying fertilizer N as guided by the leaf color ... all critical growth stages requiring a suf- cient supply of N. Applications of fer tilizer N can be adjusted upward or downward based on leaf color, which reects the crop’s relative need for N. We conducted on-farm trials dur- ing two rice seasons to evaluate both approaches relative to the blanket recommendation and farmer practice of applying fertilizer N to rice. On-farm eld trials were carried out in different districts in Punjab, India, during the 2008 and 2009 rice seasons. A 6-panel LCC manufactured by Nitrogen Parameters, Chennai, India, was used for evaluating N status of rice leaves as dened by their greenness. At each site, elds varying from 1,000 to 2,000 m 2 in size were divided into four plots in which fertilizer N was applied as per the following strategies: 1. Farmer fertilizer practice 2. Blanket fertilizer recommenda tion: 120 kg N/ha in three equal split rates at transplanting and 21 and 42 DAT 3. Real-time N usin g LCC: A basal dose of 30 kg N /ha + 30 kg N/ha whenever color of the rst fully opened leaf from the top was less than shade 4 of the 6-color panel LCC; starting 15 DAT up to initiation of owering 4. Fixed-date variable rate N management: 30 kg N/ha basal + 40 kg N/ha at 21 DAT + 30 or 45 kg N/ha at 42 DAT depending up on leaf col or being > or < than shade 4 of th e 6- color panel LCC The amount of fertilizer N applied at different dates within the four treatments was recorded. In 2008, 30-to-35 day old rice seedlings were transplante d at different eld locations during June 25 to July 1. T ransplant- Harmandeep Singh, K.N. Sharma, Gagandeep Singh Dhillon, Amanpreet, Te jdeep Singh, Vi cky Singh, Dinesh Kumar, Bijay Singh, and Harmandeep Singh On-farm trials were carried out to evaluate real-time and fixed-date variable rate strate- gies of need-based N management in rice using a leaf color chart (LCC) in relation to blanket recommendations for the State and farmer practice. The strategy of fixed-date variable rate N management produced yields similar to those obtained with the real-time N management or blanket recommendation strategies, although significant differences in N use efficiency were obtained. On-farm Evaluation of Real-time Nitrogen Management in Rice This is an example of the 6-color LCC used in gauging rice leaf color.

Upload: bijay-singh

Post on 08-Apr-2018

215 views

Category:

Documents


0 download

TRANSCRIPT

Page 1: Better Crops LCC Paper Dec 2010

8/6/2019 Better Crops LCC Paper Dec 2010

http://slidepdf.com/reader/full/better-crops-lcc-paper-dec-2010 1/36

Abbreviations: N = nitrogen.

PUNJAB, INDIA

Current fertilizer N recommendations in India typicallyconsist of fixed rate and timings for large rice growingtracts. These “blanket” recommendations have served

their purpose in producing good yields, but they are limitedin their capacity to increase nutrient use efficiency. Andmany times, to ensure high yields, farmers apply fertilizer Nrates even higher than the blanket recommendation. Over-application of N in cereal crops leads to further lowering of Nfertilizer recovery efficiency. The blanket recommendations arealso not responsive to temporal variations in crop N demand.

Use of N in excess of crop requirement and inefficientsplitting of N applications are the main reasons for low N useefficiency in rice. Since improving the synchrony between cropN demand and the N supply from soil and/or the applied Nfertilizer is likely to be the most promising strategy to increaseN use efficiency, the split application of fertilizer N is goingto remain an essential component of fertilizer N managementstrategies in rice. Real-time corrective N management is basedon periodic assessment of plant N status, and the applicationof fertilizer N is delayed until N deficiency symptoms start toappear. Thus, a key ingredient for real-time N management is

a method of rapid assessment of leaf N content that is closelyrelated to photosynthetic rate and biomass production and isa sensitive indicator of changes in crop N demand within thegrowing season.

As rice leaf color is a good indicator of leaf N content, theLCC, developed through collaboration of the International RiceResearch Institute (IRRI) with agricultural research systemsof several countries in Asia, serves as a visual and subjectiveindicator of plant N deficiency. With its 4- or 6-color panels of different shades of green, the LCC is used as a reference tooland is becoming popular as an inexpensive and easy-to-use toolfor estimating leaf N content and managing fertilizer N in rice.

LCC-based, real-time N management can be practiced

in rice by monitoring leaf color at 7- to 10-day intervals dur-ing the growing season. Fertilizer N is applied whenever theleaves are less greenish than a threshold LCC value, whichcorresponds to a critical leaf N content (Bijay-Singh et al.,2002, Varinderpal-Singh et al., 2007, Yadvinder-Singh et al.,2007). Many times, farmers prefer less frequent monitoring of leaf color as they are strongly accustomed to applying fertilizer N at growth stages as per the blanket recommendation. Analternative fixed-time option involves application of moderaterates of N at transplanting, and at 21 days after transplanting(DAT), coupled with monitoring of leaf color only at panicle

initiation around 42 DAT and applying fertilizer N as guidedby the leaf color ... all critical growth stages requiring a suf-ficient supply of N. Applications of fertilizer N can be adjustedupward or downward based on leaf color, which reflects the

crop’s relative need for N. We conducted on-farm trials dur-ing two rice seasons to evaluate both approaches relative tothe blanket recommendation and farmer practice of applyingfertilizer N to rice.

On-farm field trials were carried out in different districtsin Punjab, India, during the 2008 and 2009 rice seasons. A6-panel LCC manufactured by Nitrogen Parameters, ChennaiIndia, was used for evaluating N status of rice leaves as definedby their greenness. At each site, fields varying from 1,000 to2,000 m2 in size were divided into four plots in which fertilizeN was applied as per the following strategies:

1. Farmer fertilizer practice2. Blanket fertilizer recommendation: 120 kg N/ha in three

equal split rates at transplanting and 21 and 42 DAT3. Real-time N using LCC: A basal dose of 30 kg N/ha +

30 kg N/ha whenever color of the first fully opened leaf fromthe top was less than shade 4 of the 6-color panel LCC; starting15 DAT up to initiation of flowering

4. Fixed-date variable rate N management: 30 kg N/habasal + 40 kg N/ha at 21 DAT + 30 or 45 kg N/ha at 42 DATdepending upon leaf color being > or < than shade 4 of the6- color panel LCC

The amount of fertilizer N applied at different dates withinthe four treatments was recorded.

In 2008, 30-to-35 day old rice seedlings were transplantedat different field locations during June 25 to July 1. Transplant-

Harmandeep Singh, K.N. Sharma, Gagandeep Singh Dhillon, Amanpreet, Tejdeep Singh,

Vicky Singh, Dinesh Kumar, Bijay Singh, and Harmandeep Singh

On-farm trials were carried out to evaluate real-time and fixed-date variable rate strate-gies of need-based N management in rice using a leaf color chart (LCC) in relation toblanket recommendations for the State and farmer practice. The strategy of fixed-datevariable rate N management produced yields similar to those obtained with the real-timeN management or blanket recommendation strategies, although significant differencesin N use efficiency were obtained.

On-farm Evaluation of Real-time

Nitrogen Management in Rice

This is an example of the 6-color LCC used in gauging rice leaf color.

Page 2: Better Crops LCC Paper Dec 2010

8/6/2019 Better Crops LCC Paper Dec 2010

http://slidepdf.com/reader/full/better-crops-lcc-paper-dec-2010 2/3

ing dates in 2009 were between June 17 and July 15. Theexperimental soils had pH values (soil: water 1: 2) rangingfrom 7.7 to 8.7, organic carbon ranging from 0.22 to 0.56 %,and texture ranging from sandy loam to clay loam. The namesof villages and districts where different trials were establishedare listed in Table 1. The experiments were harvested fromOctober 3 to October 30 in 2008 and from October 10 to No-vember 01 in 2009. An area ranging from 40 to 60 m2 in thecentre of each treatment plot was used to estimate grain yield(14 % moisture) at harvest.

ResultsCompared to the blanket fertilizer N recommendation of 

120 kg N/ha, the 15 farmers following their own practice ap-plied 115 to 180 kg N/ha to rice (Table 1). Except for twofarmers who applied 115 and 116 kg N/ha, all others appliedsubstantially higher amounts of fertilizer N to rice. While inthe fixed-date variable rate treatment one could apply either 100 or 115 kg N/ha, fertilizer N rates in the leaf color-based,real-time fertilizer N management treatment varied from 60to 120 kg N/ha.

Grain yields recorded were similar across four strategiesat all locations, thus revealing that higher amounts of N ap-plication as per farmer fertilizer practice compared to the threeother strategies (i.e., blanket, real time, and fixed-date variablerate) were not advantageous. The grain yields recorded in the

LCC-based real-time N manage-ment and fixed-date variablerate strategieswere similar tothose obtainedwith the blankerate of 120 kg

N/ha at all 15locations. Theseresults from thereal-time N man-agement strategywere obtained byapplying 60 to120 kg N. Thislarge variationin N applicationrates suggeststhat the strategy

can guide N ap-plication to riceas per need othe crop whilenot adversely af-fecting yield.

Partial fac-tor productivity(PFP

N), a mea-

sure of N use effi-ciency defined asyield of harvest-ed portion divid-

ed by amount of N fertilizer applied (Snyder and Bruulsema2007) is plotted as an average for each treatment across sitesin Figure 1. Real-time N management performed the bestwhile the fixed-date variable N rate application appears to holdpromise despite needing further refinement. These results arein-line with those reported by Varinderpal-Singh et al. (2007and Yadvinder-Singh et al. (2007) from other on-farm locationsin Punjab. Although yield levels obtained by following the

Table 1. Evaluating real time N management and fixed time variable dose N management strategies using leaf color chart vis-à-vis farmer fertilizer practice and blanket recommendation in rice at on-farm locations inPunjab, India, during 2008 and 2009.

Village /district

Farmer fertilizer practice

Blanket fertilizer recommendation1

Real-time N managementusing LCC2

FDVR3

(N30

+ N40

+ N30/45

)

Fertilizer Napplied,kg/ha

Grain yield,t/ha

Fertilizer Napplied,kg/ha

Grain yield,t/ha

Fertilizer Napplied,kg/ha

Grain yield,t/ha

Fertilizer Napplied,kg/ha

Grain yield,t/ha

2008 rice seasonMrar Kalan, Muktsar 133 7.38 120 7.50 190 7.20 115 7.55

Pakhi Kalan, Faridkot 153 8.80 120 8.40 190 8.48 115 8.55

Hakumat Singh Wala,Ferozepur 

150 8.40 120 8.30 120 8.53 115 8.33

Chuhana, Gurdaspur 146 6.05 120 5.98 190 5.88 115 6.00

Kala Manjh, Hoshiarpur 150 7.13 120 7.00 120 6.83 115 7.00

2009 rice season

 Tehna 1, Faridkot 180 7.40 120 6.80 190 6.90 115 6.95

 Tehna 2, Faridkot 169 6.80 120 7.00 190 6.80 115 6.80

Pakka 1, Faridkot 135 8.00 120 7.60 160 7.20 100 7.40

Pakka 2, Faridkot 127 6.00 120 7.20 190 7.00 115 7.00

Wara Draka, Faridkot 115 8.00 120 9.00 190 8.80 115 9.00

Dusanjh, Moga 180 7.35 120 8.00 160 7.80 100 8.05

Bhaloor, Moga 180 6.80 120 6.40 190 6.30 115 6.30

Samalsar, Moga 160 7.80 120 7.20 190 7.28 100 7.15

Wara Bhai Ka 1, Ferozepur 116 7.20 120 7.28 160 7.15 100 7.20

Wara Bhai Ka 2, Ferozepur 140 6.00 120 6.00 190 5.85 115 5.95

1120 kg N/ha in three equal split rates at transplanting and 21 and 42 DAT.2Basal rates of 30 kg N/ha + 30 kg N/ha whenever color of the first fully opened leaf from the top was less shade 4 of theLCC; starting 15 DAT up to initiation of flowering.3Fixed-date variable rate N management: 30 kg N/ha basal + 40 kg N/ha at 21 DAT + 30 or 45 kg N/ha at 42 DAT depend-ing upon leaf color to be ≥ or < than LCC shade 4.

Blanket N recommendations cannot achieve the N use eff iciency of real-time split applications based on monitoring.

Page 3: Better Crops LCC Paper Dec 2010

8/6/2019 Better Crops LCC Paper Dec 2010

http://slidepdf.com/reader/full/better-crops-lcc-paper-dec-2010 3/3